The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases

Linearly with time

Exponentially with time

Logarithmically with time

Very abruptly towards the end of the reaction

Linearly with time

Exponentially with time

Logarithmically with time

Very abruptly towards the end of the reaction

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Chemical Reaction Engineering
"A spherical porous catalyst particle of radius R is subjected to reactant A which reacts to form B by a zero order surface reaction A → B. Film mass transfer resistance is negligible and pore diffusion of A is rate controlling. The effectiveness factor of the catalyst is reported as 7/8. Which of the following statement is true?A. Inner catalyst core of radius R/8 does not participate in reaction."

Inner catalyst core of radius R/8 does not participate in reaction

Inner catalyst core of radius 7R/8 does not participate in reaction

Inner catalyst core of radius R/2 does not participate in reaction

Ffectiveness factor for a zero order reaction can not be 7/8 as it must always be 1

Inner catalyst core of radius R/8 does not participate in reaction

Inner catalyst core of radius 7R/8 does not participate in reaction

Inner catalyst core of radius R/2 does not participate in reaction

Ffectiveness factor for a zero order reaction can not be 7/8 as it must always be 1

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Chemical Reaction Engineering
Maximum equilibrium conversion for endothermic reaction is obtained at the __________ temperature.

Lowest possible

Intermediate

Highest possible

Room

Lowest possible

Intermediate

Highest possible

Room

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Chemical Reaction Engineering
A gaseous reactant is introduced in a mixed reactor of 3 litres volume at the rate of 1 litre/second. The space time is __________ seconds.

1

32

43833

3

1

32

43833

3

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Chemical Reaction Engineering
The rate constant of a chemical reaction increases by 100 times when the temperature is increased from 400 °K to 500 °K. Assuming transition state theory is valid, the value of E/R is

8987°K

8621°K

8764°K

9210°K

8987°K

8621°K

8764°K

9210°K

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Chemical Reaction Engineering
Helium-mercury method is used for the measurement of the __________ of the catalyst.

Porosity

Surface area

Both B & C

Pore volume

Porosity

Surface area

Both B & C

Pore volume

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Chemical Reaction Engineering

Chemical Reaction Engineering The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering Maximum equilibrium conversion for endothermic reaction is obtained at the __________ temperature.

Chemical Reaction Engineering A gaseous reactant is introduced in a mixed reactor of 3 litres volume at the rate of 1 litre/second. The space time is __________ seconds.

Chemical Reaction Engineering The rate constant of a chemical reaction increases by 100 times when the temperature is increased from 400 °K to 500 °K. Assuming transition state theory is valid, the value of E/R is

Chemical Reaction Engineering Helium-mercury method is used for the measurement of the __________ of the catalyst.

Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering
Maximum equilibrium conversion for endothermic reaction is obtained at the __________ temperature.

Chemical Reaction Engineering
A gaseous reactant is introduced in a mixed reactor of 3 litres volume at the rate of 1 litre/second. The space time is __________ seconds.

Chemical Reaction Engineering
The rate constant of a chemical reaction increases by 100 times when the temperature is increased from 400 °K to 500 °K. Assuming transition state theory is valid, the value of E/R is

Chemical Reaction Engineering
Helium-mercury method is used for the measurement of the __________ of the catalyst.